EC:2.7.7.49 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA is a very stable molecule and fixation as well as routine histological processing does not destroy its molecular structure. Hence the possibility exists to use this material for molecular genetic analyses. The polymerase chain reaction (PCR) opens the chance to amplify DNA to huge amounts from pathological paraffin and plastic blocks and to use this DNA for further examinations, such as detection of mutations or translocations in malignant tumors, e.g. t(14;18) in follicular lymphomas, bcr/abl in chronic myeloic leukemia, t(11;22) in Ewing sarcomas or of the ras-gene in colon cancer, overexpression of tumor related mRNA, e.g. mdr1-mRNA of the multidrug associated P-Glycoprotein, or detection of foreign DNA from viruses or bacteriae, as well as analysis of hereditary diseases. PCR in its various forms (conventional PCR, PCR with direct sequencing, reverse transcriptase (RT)-PCR, nested primer PCR, quantitative RT-PCR, inverse PCR, degenerated primer (DOP) PCR, in situ PCR, in situ RT-PCR etc.) has proven to supplement routine diagnostic work in many occasions, however, it has to be emphasized that up to now there exists no example for a complete replacement of histological or immunhistological examination by PCR. As consequence, histology remains the first and most important step towards a relevant diagnosis supplemented e.g. by PCR and other techniques of molecular biology.
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PMID:[Polymerase chain reaction in diagnostic pathology]. 753 75

Expression of the multidrug resistance gene mdr1 is reported to be an important determinant of responsiveness to therapy and survival in some cancers. Many different methods have been used to evaluate mdr1 expression in these studies. This paper compares four methods for determination of mdr1 expression. We studied the mdr1 gene expression in 36 freshly established cell lines from 28 children with acute lymphoblastic leukemia (16 T-ALL, six BCP-ALL, two B-ALL (L3), two biphenotypic leukemias, two Burkitt's lymphomas). Leukemic specimens were obtained at the time of diagnosis in 16 cases, and after chemotherapy in 20 cases. In all the samples, mdr1 mRNA was measured by slot blotting and reverse transcriptase polymerase chain reaction (rt-PCR), and the presence of the mdr1 product, P-glycoprotein, was detected by immunohistochemistry with the MRK-16 monoclonal antibody. In situ mdr1 RNA hybridization was performed in 30 cases. Complete agreement was noted between all the techniques in 14 cases (39%). Results differed on a single test result in another 39% of the cases. These 78% of cases were considered assessable, and the consensus result was presumed to be correct. By this consensus criterion, immunohistochemistry yields both false negative (11%), and false positive (11%) results. RNA slot blotting has a high (21%) false positive rate. In situ mRNA hybridization and rt-PCR have the highest concordance, 80%. The 28 patients from whom these cell lines were derived appear to represent a very poor prognosis group, since there are only two patients (with Burkitt's lymphoma) who are long-term survivors. Nonetheless, a complete clinical response to therapy was correlated with absence of mdr1 expression in assessable cases (p = 0.04). These four methods of determining mdr1 expression often yield discordant results. Therefore, the use of at least two methods for evaluating mdr1 expression is advisable. Rt-PCR is recommended because of its relative simplicity and specificity. This should be supplemented by a technique (immunohistochemistry or flow cytometry) able to detect heterogeneity of P-glycoprotein expression among cells.
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PMID:Mdr1 gene expression in childhood acute lymphoblastic leukemias and lymphomas: a critical evaluation by four techniques. 790 44

A major form of drug resistance in tumour cells known as classical multidrug resistance (MDR) is associated with the overexpression of the mdr1 gene product, the membrane protein P-glycoprotein (P-gp), which acts as an energy-dependent drug efflux pump. In this study the inheritance of P-gp expression was examined using hybrids formed after somatic cell fusion between a drug-sensitive human T-cell leukaemia cell line, CEM/CCRF, and a drug-resistant derivative, CEM/A7, which is characterized by a clonal chromosomal duplication dup(7)(q11.23q31.2). Fourteen hybrids, chosen at random, were analysed by reverse transcriptase-polymerase chain reaction (RT-PCR) and by binding studies involving the monoclonal antibody MRK16, which recognises an external P-gp epitope. Only two hybrids were positive for both MRK16 antibody labelling and mdr1 mRNA. Partial karyotypic analysis of all hybrids revealed that only the MRK16-positive hybrids contained the duplication in chromosome 7 seen in the CEM/A7 parental MDR line. Therefore, P-gp overexpression in the MRK16-positive hybrids may be linked to the inheritance of chromosome 7 from CEM/A7 and possibly associated with the chromosome 7 abnormality.
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PMID:Inheritance of chromosome 7 is associated with a drug-resistant phenotype in somatic cell hybrids. 854 2

Multidrug resistance-associated protein (MRP) is a 190 kD transmembrane protein and a potentially important drug-transporter protein in human cancers. While the MRP gene is expressed in normal cells and tissues, the expression in solid tumors is not sufficiently determined. MRP and mdr1 mRNA expressions were examined in normal lung parenchyma and in tumor tissues from six small cell lung cancer (SCLC) patients who had received preoperative chemotherapy and eleven nonsmall cell lung cancer (NSCLC) patients. The reverse transcriptase polymerase chain reaction was used. Normal lung tissues and all SCLCs expressed abundant levels of MRP mRNA, while the NSCLCs expressed a wide range of levels from low to high. Most tumor tissues coexpressed both MRP and mdr1, but the levels of mdrl expression was low except in two SCLCs and one NSCLC. MRP is more likely than mdr1 to be one of the clinical multidrug resistance mechanisms found in lung cancer.
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PMID:Multidrug resistance-associated protein (MRP) gene expression in human lung cancer. 871 46

The purpose of the present study is to examine spatial and temporal expression of P-glycoprotein in the brain of congenitally hydrocephalic HTX rats. P-glycoprotein has been reported not only as a drug efflux pump but also one of the factors that restricts brain edema. We examined the rat brain from postnatal day 1 to 60 using light and electron microscopy, immunohistochemistry, Western immunoblot and reverse transcriptase-polymerase chain reaction (RT-PCR) methods with monoclonal antibody specific for P-glycoprotein. Immunohistochemically, the positive anti-P-glycoprotein reactivity was found in capillaries of the normal control rat cerebrum. In the hydrocephalic HTX rat brains, it was also found in the capillaries, but only very weak to no reactivity was found in the capillaries of the spongy changes and cystic wall in the subcortical and lateral periventricular white matter. Immunoelectron microscopically, the reaction product was found exclusively on the luminal surface of the capillary endothelium in control rats. A tracer study with intracardiac perfusion of lanthanum chloride showed that lanthanum penetrated the tight junctions and passed through the intercellular space. In the Western immunoblot analysis, P-glycoprotein of 170 kDa was detected clearly in most normal control rat brains but it was not found in the hydrocephalic HTX rat brains. Moreover, mdr1 P-glycoprotein gene expression in the subcortical white matter was examined by RT-PCR. It was detected in all normal control rat brains, but not found in the hydrocephalic HTX rat brains. The results suggested that the absence of P-glycoprotein expression in the capillaries of deep subcortical and lateral periventricular white matter of hydrocephalic HTX rats led to a deficiency of the blood-brain barrier and might be related to vasogenic edema and to the formation of the spongy changes and cystic cavities.
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PMID:Spatial and temporal expression of P-glycoprotein in the congenitally hydrocephalic HTX rat brain. 883 57

There is considerable variation in the assays used to evaluate the expression of mdr1 in various human malignancies. Current methodology includes reverse transcriptase polymerase chain reaction (RT-PCR) for assay of mdr1 mRNA, and immunohistochemistry or flow cytometry for detection of the multidrug transporter, P-glycoprotein(P-gp). Normal tissues, such as gastrointestinal mucosa, biliary tract and kidney, express high levels of P-gp, which suggests physiologic functions for this transporter. The some evidence suggests that mdr1 expression is a prognostic factor for response to chemotherapy, as well as for subsequent survival in various kind of tumors. We have developed a novel method using flow cytometry for detection of P-gp in gastric carcinomas. A strong correlation was noted between the flow cytometric data and the degree of drug resistance assessed by thymidine incorporation assay (TIA). We believe that this technique may have a significant potential to be utilized in prediction of P-gp related drug resistance in clinical cancer chemotherapy.
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PMID:[Detection of P-glycoprotein and its clinical significance]. 915 54

DNA topoisomerases are major defined targets for a large variety of clinically important anticancer agents, including etoposide, adriamycin, and mitoxantrone. Mutations at amino acids 439, 450 and 803 of DNA topoisomerase II were examined in multiple anticancer drug-resistant anaplastic thyroid carcinomas (ten cell lines and three cancerous tissues) by reverse transcriptase-polymerase chain reaction (RT-PCR) and subsequent DNA sequencing. No mutation was found in these cell lines and tissues, but mdr1, mrp and/or lrp mRNA were expressed to a varying degree, and there was no significant difference in DNA topoisomerase IIalpha content among the cell lines and tissues as evaluated by Western blotting. Our experimental data indicate that overexpression of multidrug resistance-related mRNA is sufficient to confer drug resistance.
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PMID:Lack of a point mutation of human DNA topoisomerase II in multidrug-resistant anaplastic thyroid carcinoma cell lines. 917 55

Associations between hematopoietic cells and their microenvironment are central to the development and maintenance of a functional hematopoietic system. It is important, therefore, to identify the surface receptors that mediate adhesive interactions among hematopoietic cells, stromal cells, and extracellular matrix components. In this study, we examined the expression of mRNA transcripts encoding a number of cell adhesion molecules and surface antigens in primitive hematopoietic cells isolated from murine bone marrow and fetal liver. Using a panel of probes, we hybridized a library of globally amplified cDNA prepared by reverse transcriptase-polymerase chain reaction of poly(A)+ mRNA from individual precursors and mature cell populations, representing precisely defined positions within the hematopoietic developmental hierarchy. The panel included probes specific for the CD45, CD34, P-glycoprotein (mdr1), Ly-6A/E (Sca-1), heat stable antigen (CD24), Fc receptor for IgG FcgammaRII (CD32), CD44, CD22, and ICAM-1 (CD54) genes, as well as alphaL (CD11a), alphaM (CD11b), beta2 (CD18), alpha4 (CD49d), alpha5 (CD49e), beta1 (CD29), and beta7 integrin subunit sequences. The data, which revealed stage- and lineage-specific expression patterns, should prove useful in designing future mechanistic studies aimed at elucidating the role played by adhesion receptors in normal and abnormal hematopoiesis.
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PMID:Expression mapping of adhesion receptor genes during differentiation of individual hematopoietic precursors. 932 54

Chemotherapy of malignant tumors is ineffective usually because of tumor cell resistance to it. Two types of resistance are known: cell resistance to a certain drug and multiple drug resistance (MDR). MDR covers a wide spectrum of drugs with different chemical structure and mechanisms of action. The most frequent cause of MDR is hyperexpression in the plasma membrane of P glycoprotein cells, which is coded for by MDR1 gene realizing active release of many cytotoxic substances from cells (Pgp-MDR). Acquisition of MDR phenotype by patient's cells impedes therapy and is often a poor prognostic sign, and therefore testing of material from cancer patients for MDR phenotype is important for selecting tumor therapy. We adapted the reverse transcriptase polymerase chain reaction (RT-PCR) to evaluating the MDR1 gene expression in peripheral blood cells of patients with hemoblastosis, assessed its sensitivity and specificity, and carried out clinical trials with blood samples from patients with MDR. Comparison of the results of RT-PCR with the findings of other methods used for detection of Pg-MDR showed their good correlation in the majority of cases. These results recommend these method for clinical practice in patients with hemoblastosis.
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PMID:[Adaptation of reverse transcriptase polymerase chain reaction for clinical diagnosis of expression of MDR1 gene]. 1087 37

In the present study, mdr1 gene expression was investigated by a sensitive reverse transcriptase-PCR assay in advanced breast cancer and in corresponding adjacent normal tissues obtained before and after treatment with primary chemotherapy. Comparatively to normal tissues, a significant induction of mdr1 expression was observed in untreated tumors (p = 0.0222). Similarly, a significant induction of mdr1 expression was revealed when treated samples were compared to untreated counterparts (p = 0.0222), but no differences were detected between tumor and normal samples (p = 0.3199). Noteworthy, a significant induction of mdr1 gene expression occurred in treated normal samples comparatively to untreated ones (p = 0.0037), and this induction was even more important in normal than in tumoral tissue (p = 0.0627). However, neither the basal expression nor the induction of mdr1 were correlated with subsequent response to chemotherapy or with survival. Thus, in agreement with previous reports, our data show that chemotherapy induce mdr1 gene expression in breast cancer cells, but they also indicate that a similar phenomenon occurs in adjacent normal tissues. Therefore, our results strongly suggest that mdr1 gene overexpression is not a characteristic of breast malignant cells, but rather constitutes a general phenomenon occurring both in normal and tumor cells which could explain at least in part the absence of relationship between mdr1 expression and the clinical outcome of breast cancer patients.
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PMID:Enhancement of mdr1 gene expression in normal tissue adjacent to advanced breast cancer. 1093 86

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